naiveproxy/net/disk_cache/blockfile/in_flight_backend_io.h

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2018-08-11 08:35:24 +03:00
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef NET_DISK_CACHE_BLOCKFILE_IN_FLIGHT_BACKEND_IO_H_
#define NET_DISK_CACHE_BLOCKFILE_IN_FLIGHT_BACKEND_IO_H_
#include <stdint.h>
#include <list>
#include <string>
#include "base/macros.h"
#include "base/memory/ref_counted.h"
#include "base/single_thread_task_runner.h"
#include "base/time/time.h"
#include "net/base/completion_callback.h"
#include "net/base/io_buffer.h"
#include "net/disk_cache/blockfile/in_flight_io.h"
#include "net/disk_cache/blockfile/rankings.h"
namespace base {
class Location;
}
namespace disk_cache {
class BackendImpl;
class Entry;
class EntryImpl;
// This class represents a single asynchronous disk cache IO operation while it
// is being bounced between threads.
class BackendIO : public BackgroundIO {
public:
BackendIO(InFlightIO* controller, BackendImpl* backend,
const net::CompletionCallback& callback);
// Runs the actual operation on the background thread.
void ExecuteOperation();
// Callback implementation.
void OnIOComplete(int result);
// Called when we are finishing this operation. If |cancel| is true, the user
// callback will not be invoked.
void OnDone(bool cancel);
// Returns true if this operation is directed to an entry (vs. the backend).
bool IsEntryOperation();
net::CompletionCallback callback() const { return callback_; }
// The operations we proxy:
void Init();
void OpenEntry(const std::string& key, Entry** entry);
void CreateEntry(const std::string& key, Entry** entry);
void DoomEntry(const std::string& key);
void DoomAllEntries();
void DoomEntriesBetween(const base::Time initial_time,
const base::Time end_time);
void DoomEntriesSince(const base::Time initial_time);
void CalculateSizeOfAllEntries();
void OpenNextEntry(Rankings::Iterator* iterator, Entry** next_entry);
void EndEnumeration(std::unique_ptr<Rankings::Iterator> iterator);
void OnExternalCacheHit(const std::string& key);
void CloseEntryImpl(EntryImpl* entry);
void DoomEntryImpl(EntryImpl* entry);
void FlushQueue(); // Dummy operation.
void RunTask(const base::Closure& task);
void ReadData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf,
int buf_len);
void WriteData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf,
int buf_len, bool truncate);
void ReadSparseData(EntryImpl* entry,
int64_t offset,
net::IOBuffer* buf,
int buf_len);
void WriteSparseData(EntryImpl* entry,
int64_t offset,
net::IOBuffer* buf,
int buf_len);
void GetAvailableRange(EntryImpl* entry,
int64_t offset,
int len,
int64_t* start);
void CancelSparseIO(EntryImpl* entry);
void ReadyForSparseIO(EntryImpl* entry);
private:
// There are two types of operations to proxy: regular backend operations are
// executed sequentially (queued by the message loop). On the other hand,
// operations targeted to a given entry can be long lived and support multiple
// simultaneous users (multiple reads or writes to the same entry), and they
// are subject to throttling, so we keep an explicit queue.
enum Operation {
OP_NONE = 0,
OP_INIT,
OP_OPEN,
OP_CREATE,
OP_DOOM,
OP_DOOM_ALL,
OP_DOOM_BETWEEN,
OP_DOOM_SINCE,
OP_SIZE_ALL,
OP_OPEN_NEXT,
OP_END_ENUMERATION,
OP_ON_EXTERNAL_CACHE_HIT,
OP_CLOSE_ENTRY,
OP_DOOM_ENTRY,
OP_FLUSH_QUEUE,
OP_RUN_TASK,
OP_MAX_BACKEND,
OP_READ,
OP_WRITE,
OP_READ_SPARSE,
OP_WRITE_SPARSE,
OP_GET_RANGE,
OP_CANCEL_IO,
OP_IS_READY
};
~BackendIO() override;
// Returns true if this operation returns an entry.
bool ReturnsEntry();
// Returns the time that has passed since the operation was created.
base::TimeDelta ElapsedTime() const;
void ExecuteBackendOperation();
void ExecuteEntryOperation();
BackendImpl* backend_;
net::CompletionCallback callback_;
Operation operation_;
// The arguments of all the operations we proxy:
std::string key_;
Entry** entry_ptr_;
base::Time initial_time_;
base::Time end_time_;
Rankings::Iterator* iterator_;
std::unique_ptr<Rankings::Iterator> scoped_iterator_;
EntryImpl* entry_;
int index_;
int offset_;
scoped_refptr<net::IOBuffer> buf_;
int buf_len_;
bool truncate_;
int64_t offset64_;
int64_t* start_;
base::TimeTicks start_time_;
base::Closure task_;
DISALLOW_COPY_AND_ASSIGN(BackendIO);
};
// The specialized controller that keeps track of current operations.
class InFlightBackendIO : public InFlightIO {
public:
InFlightBackendIO(
BackendImpl* backend,
const scoped_refptr<base::SingleThreadTaskRunner>& background_thread);
~InFlightBackendIO() override;
// Proxied operations.
void Init(const net::CompletionCallback& callback);
void OpenEntry(const std::string& key, Entry** entry,
const net::CompletionCallback& callback);
void CreateEntry(const std::string& key, Entry** entry,
const net::CompletionCallback& callback);
void DoomEntry(const std::string& key,
const net::CompletionCallback& callback);
void DoomAllEntries(const net::CompletionCallback& callback);
void DoomEntriesBetween(const base::Time initial_time,
const base::Time end_time,
const net::CompletionCallback& callback);
void DoomEntriesSince(const base::Time initial_time,
const net::CompletionCallback& callback);
void CalculateSizeOfAllEntries(const net::CompletionCallback& callback);
void OpenNextEntry(Rankings::Iterator* iterator, Entry** next_entry,
const net::CompletionCallback& callback);
void EndEnumeration(std::unique_ptr<Rankings::Iterator> iterator);
void OnExternalCacheHit(const std::string& key);
void CloseEntryImpl(EntryImpl* entry);
void DoomEntryImpl(EntryImpl* entry);
void FlushQueue(const net::CompletionCallback& callback);
void RunTask(const base::Closure& task,
const net::CompletionCallback& callback);
void ReadData(EntryImpl* entry, int index, int offset, net::IOBuffer* buf,
int buf_len, const net::CompletionCallback& callback);
void WriteData(
EntryImpl* entry, int index, int offset, net::IOBuffer* buf,
int buf_len, bool truncate, const net::CompletionCallback& callback);
void ReadSparseData(EntryImpl* entry,
int64_t offset,
net::IOBuffer* buf,
int buf_len,
const net::CompletionCallback& callback);
void WriteSparseData(EntryImpl* entry,
int64_t offset,
net::IOBuffer* buf,
int buf_len,
const net::CompletionCallback& callback);
void GetAvailableRange(EntryImpl* entry,
int64_t offset,
int len,
int64_t* start,
const net::CompletionCallback& callback);
void CancelSparseIO(EntryImpl* entry);
void ReadyForSparseIO(EntryImpl* entry,
const net::CompletionCallback& callback);
// Blocks until all operations are cancelled or completed.
void WaitForPendingIO();
scoped_refptr<base::SingleThreadTaskRunner> background_thread() {
return background_thread_;
}
// Returns true if the current sequence is the background thread.
bool BackgroundIsCurrentSequence() {
return background_thread_->RunsTasksInCurrentSequence();
}
base::WeakPtr<InFlightBackendIO> GetWeakPtr();
protected:
void OnOperationComplete(BackgroundIO* operation, bool cancel) override;
private:
void PostOperation(const base::Location& from_here, BackendIO* operation);
BackendImpl* backend_;
scoped_refptr<base::SingleThreadTaskRunner> background_thread_;
base::WeakPtrFactory<InFlightBackendIO> ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(InFlightBackendIO);
};
} // namespace disk_cache
#endif // NET_DISK_CACHE_BLOCKFILE_IN_FLIGHT_BACKEND_IO_H_